A new tunneling path for reactions such as H+H2→H2+H
- 15 September 1977
- journal article
- conference paper
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 67 (6) , 2609-2613
- https://doi.org/10.1063/1.435172
Abstract
The standard tunneling path in transition state theory for reactions such as H+H2→H2+H has been the so‐called reaction path, namely the path of steepest ascent to the saddle point. This path is now known to give numerical results for the reaction probability which are in disagreement with the exact quantum mechanical ones by an order of magnitude at low tunneling energies. A new tunneling path corresponding to a line of vibrational endpoints is proposed. It is much shorter and is shown to give results in agreement with the quantum ones to within about a factor of two. A semiclassical basis for choosing this new path is given.Keywords
This publication has 30 references indexed in Scilit:
- Energy Distributions in Unimolecular ReactionsBerichte der Bunsengesellschaft für physikalische Chemie, 1977
- Quantum Mechanics of the H+H2 Reaction: Exact Scattering Probabilities for Collinear CollisionsThe Journal of Chemical Physics, 1970
- Correlation of Experimental Rate Constants of the Hydrogen Exchange Reactions with a Theoretical H3 Potential Surface, Using Transition-State TheoryThe Journal of Chemical Physics, 1968
- Permeabilities and Transmission Coefficients for Various Isotopic Reactions of the Type H + H2=H2 + HThe Journal of Chemical Physics, 1968
- On the analytical description of resonance tunnelling reactionsMolecular Physics, 1968
- On the Theory of Chemical-Reaction Cross Sections. II. Application to the H + H2 ReactionThe Journal of Chemical Physics, 1967
- On the Analytical Mechanics of Chemical Reactions. Classical Mechanics of Linear CollisionsThe Journal of Chemical Physics, 1966
- Potential Energy Surface for H3The Journal of Chemical Physics, 1964
- Large Tunnelling Corrections in Chemical Reaction Rates.1 IIJournal of the American Chemical Society, 1961
- Corrected bohr-sommerfeld quantum conditions for nonseparable systemsAnnals of Physics, 1958